Details

Autor(en) / Beteiligte

• Kandula, Kumara Raja
• Shet, Tukaram
• Nuthalapatib, Mohan
• Koneti, Lokeswara Rao
• Ansari, Anees A.
• Alotaibi, Khalid M.
• Alotaibi, Abdullah A.
• Atragada, Chitti Babu
• Nelaturi, Narasimha Rao
• Vadnala, Sudharshan
• Shankar, Jakkula
• Paritala, Raghava Rao
• Bhimireddi, Rajasekhar

Titel

Structural Phase Modulation in Lanthanum‐ and Tin‐Cosubstituted Pb(Zr,Ti)O3 Ceramics and its Energy and Pyroenergy Storage Properties

Ist Teil von

• Physica status solidi. A, Applications and materials science, 2023-01, Vol.220 (2), p.n/a

Ort / Verlag

Weinheim: Wiley Subscription Services, Inc

Erscheinungsjahr

2023

Link zum Volltext

Quelle

Wiley Online Library

Beschreibungen/Notizen

• La‐ and Sn‐cosubstituted lead zirconate titanate (PbLaZrSnTiO3) ceramics are synthesized using a solid‐state reaction route. These PbLaZrSnTiO3(PLZST) ceramics in pure form are found to exist in dual phase (Cc+P4mm) and single phase (Cc) depending on the amount of La/Sn cosubstitution. PLZST ceramics exhibit thin P–E loops with enhanced polarization when measured at 393 K. Olsen cycle method is used to estimate the pyroenergy harvesting abilities of the samples under study. The estimated maximum energy storage density for PLZST (50/30/20) ceramics at 393 K is 1.16 J cm−3 [efficiency (η) > 96%]. The PLZST ceramics exhibit a remarkable hardness of 9.08 GPa. These results indicate that PLZST ceramics with excellent multifunctional properties are potential candidates in the field of electroceramic devices. Synthesized La‐ and Sn‐cosubstituted lead zirconate titanate PbLaZrSnTiO3 (PLZST) ceramics show thin P–E loops with improved polarization when measured at 393 K. The estimated maximum energy storage density at 393 K for PLZST (50/30/20) ceramics is 1.16 J cm−3 [efficiency (η) > 96%].